Courses for Chemical and Biological Engineering 1 COURSES FOR CHEMICAL AND BIOLOGICAL ENGINEERING CHE305 Separation Processes Chemical and Biological Engineering C Courses Hours 3 CHE125 Introduction To Chemical Engineering Unified approach to the basic calculations and fundamental concepts Hours 1 involved in the design of equilibrium-stage separations processes and An introduction to the chemical engineering profession, its history and continuous contacting equipment. Computer proficiency is required for a its career-enabling potential. The course contains selected topics, and passing grade in this course. alumni seminars covering the full range of career opportunities from Prerequisite(s): CHE 255 emerging areas (nanotechnology, biochemical, multifunctional materials) to those found in the more traditional positions within the chemical, Computer Science petrochemical and petroleum industries. CHE306 Heat Transfer Operations CHE254 Chemical Engineering Calculations Hours 3 Hours 4 Study of heat transfer and its application in the design of specific Study of physical and chemical processes and chemical reactions; processes and process equipment. material and energy balance calculations for single-phase and multiphase Prerequisite(s): CHE 254, MATH 238, and CHE 304 systems; simultaneous energy and material balances. Offered fall and spring. Prerequisite(s) with concurrency: CHE 304 Prerequisite(s): CH 101 or CH 117; and MATH 125 or MATH 145; AEM 121 CHE321 Basic Chemical Engineering Laboratory or AEM 131 or CE 121 or ECE 121 or ENGR 111 or ME 121 or MTE 121 or W EE 121 or CS 121 Hours 2 Prerequisite(s) with concurrency: CHE 125 Basic chemical engineering measurements are made, including CHE255 Chemical Engineering Thermodynamics temperature, pressure, concentration, and fluid flow. Fundamental and C empirical equations are used to analyze mass, energy, and momentum transport. Writing proficiency is required for a passing grade in this Hours 4 course. A student who does not write with the skill normally required of The backbone of thermodynamics theory is based on ideal gas and an upper-division student will not earn a passing grade, no matter how structured as following: First, establish theory/property model ideal gas well the student performs in other areas of the course. Offered both fall pure substance, use ideal gas model to describe real gas by introduce and spring semesters. residual property; Second, use theory/property model ideal gas mixture Prerequisite(s): CHE 255, CHE 304 to describe real gas mixture by residual property and partial property; Third, establish theory/property of model ideal solution, use it to describe Writing real solution mixture with excessive property. Computer proficiency is CHE322 Unit Operations Laboratory required for a passing grade in this course. Offered fall and spring. W Prerequisite(s): ENGR 103 or ENGR 123 and CHE 254 and MATH 126 or Hours 2 MATH 146 Performance tests on chemical engineering unit operations, such as Prerequisite(s) with concurrency: MATH 238 distillation and heat transfer, are designed, operated, and analyzed in a Computer Science formal report. Writing proficiency is required for a passing grade in this course. A student who does not write with the skill normally required CHE304 Fluid Flow Operations of an upper-division student will not earn a passing grade, no matter Hours 3 how well the student performs in other areas of the course. Offered fall Equations of momentum and energy transport and their applications to and spring semesters. Successful completion of CHE 321 and CHE 322 the analysis of fluid process behavior, filtration, fluidization and metering satisfies the curriculum requirement of CHE 323. of fluids. Prerequisite(s): CHE 304 and CHE 305 and CHE 306 and CHE 321 Prerequisite(s): CHE 254 and MATH 126 or MATH 146 and PH 105 Writing 2 Courses for Chemical and Biological Engineering CHE323 Operations Laboratory CHE413 Honors Polymer Materials Engineering W UH Hours 4 Hours 3 Performance tests on chemical engineering unit operations, such as Introduction to the manufacture, processing and applications of organic distillation and heat transfer, are designed, operated, and analyzed in a polymeric materials. This course covers the chemistry of polymer formal report. Writing proficiency is required for a passing grade in this manufacture, the molecular structures of polymers, and the structure- course. A student who does not write with the skill normally required of property relationships for thermoplastic and thermosetting polymers. an upper-division student will not earn a passing grade, no matter how Honors designation. well the student performs in other areas of the course. Offered summer Prerequisite(s): CH 102 or CH 118 only. Can be replaced by successful completion of CHE 321 and CHE 322. University Honors Prerequisite(s): CHE 304 and CHE 305 and CHE 306 CHE414 Computer Methods in Chemical Engineering Writing Hours 3 CHE324 Transport Phenomena A survey of common software, data processing, and statistical analysis C tools applied to chemical engineering, science, and general interest Hours 3 topics. This course covers the fundamentals of computer programming (coding) and problem solving for chemical engineering students. This course will give junior & senior level students a working knowledge of conservation equations for mass, momentum and energy with Prerequisite(s) with concurrency: CHE 354 application to steady-state chemical processes. Computer proficiency is CHE415 Honors Computer Methods in Chemical Engineering required for a passing grade in this course. UH Prerequisite(s): CHE 255 and MATH 238 and CHE 304 Hours 3 Computer Science A survey of common software, data processing, and statistical analysis CHE325 ChE Honors Forum tools applied to chemical engineering, science, and general interest UH topics. This course covers the fundamentals of computer programming (coding) and problem solving for chemical engineering students. Honors Hours 1 designation. Designed to expose students to the rich array of resources, ideas and Prerequisite(s) with concurrency: CHE 354 experiences of chemical engineering. Emphasis and content based on faculty member's area of expertise. University Honors University Honors CHE416 Stem Cell Bioengineering Hours 3 CHE354 Chemical Reactor Design Hours 3 Introduction to stem cell biology and bioengineering approaches for stem cell-based therapy and related applications. This course will provide Reaction rate equations and comparisons with experimental data; use of special emphasis on the application of chemical engineering skills rate information for the design of chemical reactors. Offered primarily in to bioengineering and development of stem cell-based therapy and the spring semester. diagnostics. Prerequisite(s): CHE 255, MATH 238 Prerequisite(s): CHE 255 or CHE 418 or CHE 445 or BSC 300 or CH 461 CHE412 Polymer Materials Engineering CHE417 Honors Stem Cell Bioengineering Hours 3 UH Introduction to the manufacture, processing and applications of organic Hours 3 polymeric materials. This course covers the chemistry of polymer manufacture, the molecular structures of polymers, and the structure- Introduction to stem cell biology and bioengineering approaches for property relationships for thermoplastic and thermosetting polymers. stem cell-based therapy and related applications. This course will provide Offered primarily in the spring semester. special emphasis on the application of chemical engineering skills to bioengineering and development of stem cell-based therapy and Prerequisite(s): CH 102 or CH 118 diagnostics. Honors designation. Prerequisite(s): CHE 255 or CHE 418 or CHE 445 or BSC 300 or CH 461 University Honors Courses for Chemical and Biological Engineering 3 CHE418 Tissue Engineering CHE446 Honors Intro to Biochemical Engineering Hours 3 UH Tissue Engineering is an emerging dynamic, experimental science in Hours 3 which engineering and biological science principles are used to develop Study of biological processes; application of chemical engineering techniques for improving or restoring the structure and function of tissue. skills to areas including enzyme kinetics, fermentation, cell growth and Offered primarily in the fall semester. metabolic processes. Offered primarily in the spring semester. Prerequisite(s): CH231 and (BSC 114 or 118) Prerequisite(s): CH 231 CHE419 Honors Tissue Engineering University Honors UH CHE481 Chemical Process Design I Hours 3 Hours 3 Tissue Engineering is an emerging dynamic, experimental science Technical and economic design of chemical processes and plants. It is in which engineering and biological science principles are applied to required that students complete at least two 300-level ChE classes before develop techniques for improving or restoring the structure and function enrolling in 481. of tissues and organs. Prerequisite(s): CHE 255 plus at least two from CHE 305, CHE 306, Prerequisite(s): CH 231 and BSC 114 or BSC 118 CHE 324, CHE 354 University Honors CHE482 Chemical Process Design II CHE440 Health & Safety In The Chemical Process Industry W Hours 3 Hours 3 Health and safety in the chemical process industry that will introduce Optimal design of chemical processes and plants. Writing proficiency is chemical engineering students to health and safety, regulations and the required for a passing grade in this course. A student who does not write designs and procedures to meet them in the chemical process. Advanced with the skill normally required of an upper-division student